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About this book
Decreasing power dissipation per logic function has become a primary concern in virtually all CMOS system chips designed today as a result of the relentless progress in processing technology that has led us into the deep-submicron age. Evolution from 1 micron to 0.1 micron lithography in the next decade will not be possible without a change in the way we design CMOS systems. But power reduction requires an overall optimisation, ranging from software compilation over instruction set design down to the introduction of much more parallelism in the architecture, the optimal use of memory hierarchy, new clocking strategies, use of asynchronous techniques, new CMOS circuit techniques and management of leakage currents in new low power technologies. Moreover, performance and power dissipation will come to be dominated by interconnect and thus completely new floor planning and place and route strategies are emerging.
The chapters in this book present a systematic coverage of deep submicron CMOS digital system design for low power, from process technology all the way up to software design and embedded software systems.
Audience: An excellent guide for the practising engineer, researcher and student interested in this crucial aspect of actual CMOS design.
The chapters in this book present a systematic coverage of deep submicron CMOS digital system design for low power, from process technology all the way up to software design and embedded software systems.
Audience: An excellent guide for the practising engineer, researcher and student interested in this crucial aspect of actual CMOS design.
Editors and Affiliations
Bibliographic Information
Book Title: Low Power Design in Deep Submicron Electronics
Editors: W. Nebel, Jean Mermet
Series Title: NATO Science Series E:
Publisher: Springer Dordrecht
Copyright Information: Springer Science+Business Media B.V. 1997
Hardcover ISBN: 978-0-7923-4569-5Due: 30 June 1997
Series ISSN: 0168-132X
Edition Number: 1
Number of Pages: 600